Article ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 2 ? Original research — experimental, observational, or case-control study. Direct primary evidence. Detection Methods Environmental Sources Gut & Microbiome Marine & Wildlife Nanoplastics Sign in to save

Extraction of Common Small Microplastics and Nanoplastics Embedded in Environmental Solid Matrices by Tetramethylammonium Hydroxide Digestion and Dichloromethane Dissolution for Py-GC-MS Determination

Environmental Science & Technology 2023 39 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Qingcun Li, Qingcun Li, Qingcun Li, Qingcun Li, Qingcun Li, Yujian Lai, Yujian Lai, Yujian Lai, Qingcun Li, Qingcun Li, Qingcun Li, Sujuan Yu, Sujuan Yu, Peng Li, Peng Li, Xueying Sheng, Ronggang Zheng, Qingcun Li, Qingcun Li, Qingcun Li, Yujian Lai, Sujuan Yu, Yujian Lai, Yujian Lai, Sujuan Yu, Xueying Sheng, Qingcun Li, Qingcun Li, Qingcun Li, Yujian Lai, Yujian Lai, Jingfu Liu Yujian Lai, Yujian Lai, Xueying Sheng, Qingcun Li, Xueying Sheng, Qingcun Li, Xueying Sheng, Xueying Sheng, Qingcun Li, Zhineng Hao, Yujian Lai, Sujuan Yu, Sujuan Yu, Sujuan Yu, Jingfu Liu Qingcun Li, Qingcun Li, Qingcun Li, Qingcun Li, Ronggang Zheng, Ronggang Zheng, Ronggang Zheng, Xueying Sheng, Xueying Sheng, Peng Li, Zhineng Hao, Sujuan Yu, Sujuan Yu, Sujuan Yu, Qingcun Li, Qingcun Li, Xueying Sheng, Xueying Sheng, Qingcun Li, Sujuan Yu, Qingcun Li, Qingcun Li, Jingfu Liu Sujuan Yu, Yujian Lai, Peng Li, Peng Li, Sujuan Yu, Peng Li, Qingcun Li, Qingcun Li, Qingcun Li, Sujuan Yu, Jingfu Liu Qingcun Li, Qingcun Li, Jingfu Liu Jingfu Liu Qingcun Li, Ronggang Zheng, Yujian Lai, Qingcun Li, Zhineng Hao, Xueying Sheng, Yujian Lai, Yujian Lai, Peng Li, Yujian Lai, Jingfu Liu Zhineng Hao, Xueying Sheng, Sujuan Yu, Sujuan Yu, Jingfu Liu Jingfu Liu Yujian Lai, Yujian Lai, Sujuan Yu, Jingfu Liu Sujuan Yu, Sujuan Yu, Sujuan Yu, Zhineng Hao, Jingfu Liu Sujuan Yu, Zhineng Hao, Sujuan Yu, Sujuan Yu, Sujuan Yu, Sujuan Yu, Sujuan Yu, Sujuan Yu, Sujuan Yu, Jingfu Liu Sujuan Yu, Jingfu Liu Sujuan Yu, Sujuan Yu, Sujuan Yu, Sujuan Yu, Sujuan Yu, Sujuan Yu, Zhineng Hao, Jingfu Liu Sujuan Yu, Sujuan Yu, Sujuan Yu, Zhineng Hao, Jingfu Liu Jingfu Liu Jingfu Liu Jingfu Liu Jingfu Liu Jingfu Liu Sujuan Yu, Yaqi Cai, Jingfu Liu Jingfu Liu Jingfu Liu Yujian Lai, Jingfu Liu Jingfu Liu Yaqi Cai, Jingfu Liu Yaqi Cai, Jingfu Liu Jingfu Liu Jingfu Liu Jingfu Liu Jingfu Liu Jingfu Liu

Summary

Researchers developed a novel method for extracting small microplastics and nanoplastics from solid environmental matrices by combining tetramethylammonium hydroxide digestion with dichloromethane dissolution, enabling more accurate quantification via Py-GC-MS.

Polymers

PE PET PP PS PVC

Study Type Environmental

Determination of microplastics and nanoplastics (MNPs), especially small MPs and NPs (<150 μm), in solid environmental matrices is a challenging task due to the formation of stable aggregates between MNPs and natural colloids. Herein, a novel method for extracting small MPs and NPs embedded in soils/sediments/sludges has been developed by combining tetramethylammonium hydroxide (TMAH) digestion with dichloromethane (DCM) dissolution. The solid samples were digested with TMAH, and the collected precipitate was washed with anhydrous ethanol to eliminate the natural organic matter. Then, the MNPs in precipitate were extracted by dissolving in DCM under ultrasonic conditions. Under the optimized digestion and extraction conditions, the factors including sizes and concentrations of MNPs showed insignificant effects on the extraction process. The feasibility of this sample preparation method was verified by the satisfactory spiked recoveries (79.6-91.4%) of polystyrene, polyethylene, polypropylene, poly(methyl methacrylate), polyvinyl chloride, and polyethylene terephthalate MNPs in soil/sediment/sludge samples. The proposed sample preparation method was coupled with pyrolysis gas chromatography-mass spectrometry to determine trace small MPs and NPs with a relatively low detection limit of 2.3-29.2 μg/g. Notably, commonly used MNPs were successfully detected at levels of 4.6-51.4 μg/g in 6 soil/sediment/sludge samples. This proposed method is promising for evaluating small solid-embedded MNP pollution.

Read via DOI PubMed

Share this paper

Post Share Share Pin Email